-// (C) Copyright David Abrahams 2000. Permission to copy, use,
-// modify, sell and distribute this software is granted provided this
-// copyright notice appears in all copies. This software is provided
-// "as is" without express or implied warranty, and with no claim as
-// to its suitability for any purpose.
-//
-// (C) Copyright Jeremy Siek 2000. Permission to copy, use, modify,
-// sell and distribute this software is granted provided this
-// copyright notice appears in all copies. This software is provided
-// "as is" without express or implied warranty, and with no claim as
-// to its suitability for any purpose.
-//
-// Revision History:
+// Copyright David Abrahams 2004. Distributed under the Boost
+// Software License, Version 1.0. (See accompanying
+// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
-// 01 Feb 2002 Jeremy Siek
-// Added more comments in default_iterator_policies.
-// 08 Jan 2001 David Abrahams
-// Moved concept checks into a separate class, which makes MSVC
-// better at dealing with them.
-// 07 Jan 2001 David Abrahams
-// Choose proxy for operator->() only if the reference type is not a reference.
-// Updated workarounds for __MWERKS__ == 0x2406
-// 20 Dec 2001 David Abrahams
-// Adjusted is_convertible workarounds for __MWERKS__ == 0x2406
-// 03 Nov 2001 Jeremy Siek
-// Changed the named template parameter interface and internal.
-// 04 Oct 2001 Jeremy Siek
-// Changed projection_iterator to not rely on the default reference,
-// working around a limitation of detail::iterator_traits.
-// 04 Oct 2001 David Abrahams
-// Applied indirect_iterator patch from George A. Heintzelman <georgeh@aya.yale.edu>
-// Changed name of "bind" to "select" to avoid problems with MSVC.
-// 26 Sep 2001 David Abrahams
-// Added borland bug fix
-// 08 Mar 2001 Jeremy Siek
-// Added support for optional named template parameters.
-// 19 Feb 2001 David Abrahams
-// Rolled back reverse_iterator_pair_generator again, as it doesn't
-// save typing on a conforming compiler.
-// 18 Feb 2001 David Abrahams
-// Reinstated reverse_iterator_pair_generator
-// 16 Feb 2001 David Abrahams
-// Add an implicit conversion operator to operator_arrow_proxy
-// as CW and BCC workarounds.
-// 11 Feb 2001 David Abrahams
-// Switch to use of BOOST_STATIC_CONSTANT where possible
-// 11 Feb 2001 Jeremy Siek
-// Removed workaround for older MIPSpro compiler. The workaround
-// was preventing the proper functionality of the underlying
-// iterator being carried forward into the iterator adaptor.
-// Also added is_bidirectional enum to avoid EDG compiler error.
-// 11 Feb 2001 David Abrahams
-// Borland fixes up the wazoo. It finally works!
-// 10 Feb 2001 David Abrahams
-// Removed traits argument from iterator_adaptor<> and switched to
-// explicit trait specification for maximum ease-of-use.
-// Added comments to detail::iterator_defaults<>
-// Began using detail::iterator_defaults<> unconditionally for code clarity
-// Changed uses of `Iterator' to `Base' where non-iterators can be used.
-//
-// 10 Feb 2001 David Abrahams
-// Rolled in supposed Borland fixes from John Maddock, but not seeing any
-// improvement yet
-// Changed argument order to indirect_ generator, for convenience in the
-// case of input iterators (where Reference must be a value type).
-// Removed derivation of filter_iterator_policies from
-// default_iterator_policies, since the iterator category is likely to be
-// reduced (we don't want to allow illegal operations like decrement).
-// Support for a simpler filter iterator interface.
-//
-// 09 Feb 2001 David Abrahams
-// Improved interface to indirect_ and reverse_ iterators
-// Rolled back Jeremy's new constructor for now; it was causing
-// problems with counting_iterator_test
-// Attempted fix for Borland
-//
-// 09 Feb 2001 Jeremy Siek
-// Added iterator constructor to allow const adaptor
-// from non-const adaptee.
-// Changed make_xxx to pass iterators by-value to
-// get arrays converted to pointers.
-// Removed InnerIterator template parameter from
-// indirect_iterator_generator.
-// Rearranged parameters for make_filter_iterator
-//
-// 07 Feb 2001 Jeremy Siek
-// Removed some const iterator adaptor generators.
-// Added make_xxx_iterator() helper functions for remaining
-// iterator adaptors.
-// Removed some traits template parameters where they
-// where no longer needed thanks to detail::iterator_traits.
-// Moved some of the compile-time logic into enums for
-// EDG compatibility.
-//
-// 07 Feb 2001 David Abrahams
-// Removed iterator_adaptor_pair_generator and
-// reverse_iterator_pair_generator (more such culling to come)
-// Improved comments
-// Changed all uses of std::iterator_traits as default arguments
-// to boost::detail::iterator_traits for improved utility in
-// non-generic contexts
-// Fixed naming convention of non-template parameter names
-//
-// 06 Feb 2001 David Abrahams
-// Produce operator-> proxy objects for InputIterators
-// Added static assertions to do some basic concept checks
-// Renamed single-type generators -> xxx_generator
-// Renamed const/nonconst iterator generators -> xxx_pair_generator
-// Added make_transform_iterator(iter, function)
-// The existence of boost::detail::iterator_traits allowed many
-// template arguments to be defaulted. Some arguments had to be
-// moved to accomplish it.
-//
-// 04 Feb 2001 MWERKS bug workaround, concept checking for proper
-// reference types (David Abrahams)
-
-#ifndef BOOST_ITERATOR_ADAPTOR_DWA053000_HPP_
-# define BOOST_ITERATOR_ADAPTOR_DWA053000_HPP_
-
-# include <boost/iterator.hpp>
-# include <boost/utility.hpp>
-# include <boost/compressed_pair.hpp>
-# include <boost/concept_check.hpp>
-# include <boost/type.hpp>
-# include <boost/static_assert.hpp>
-# include <boost/type_traits.hpp>
-# include <boost/detail/iterator.hpp>
-# include <boost/detail/select_type.hpp>
-
-// I was having some problems with VC6. I couldn't tell whether our hack for
-// stock GCC was causing problems so I needed an easy way to turn it on and
-// off. Now we can test the hack with various compilers and still have an
-// "out" if it doesn't work. -dwa 7/31/00
-# if __GNUC__ == 2 && __GNUC_MINOR__ <= 96 && !defined(__STL_USE_NAMESPACES)
-# define BOOST_RELOPS_AMBIGUITY_BUG 1
-# endif
-
-namespace boost {
-
-//============================================================================
-// Concept checking classes that express the requirements for iterator
-// policies and adapted types. These classes are mostly for
-// documentation purposes, and are not used in this header file. They
-// merely provide a more succinct statement of what is expected of the
-// iterator policies.
-
-template <class Policies, class Adapted, class Traits>
-struct TrivialIteratorPoliciesConcept
-{
- typedef typename Traits::reference reference;
- void constraints() {
- function_requires< AssignableConcept<Policies> >();
- function_requires< DefaultConstructibleConcept<Policies> >();
- function_requires< AssignableConcept<Adapted> >();
- function_requires< DefaultConstructibleConcept<Adapted> >();
-
- const_constraints();
- }
- void const_constraints() const {
- reference r = p.dereference(x);
- b = p.equal(x, x);
- ignore_unused_variable_warning(r);
- }
- Policies p;
- Adapted x;
- mutable bool b;
-};
-
-// Add InputIteratorPoliciesConcept?
-
-template <class Policies, class Adapted, class Traits>
-struct ForwardIteratorPoliciesConcept
-{
- typedef typename Traits::iterator_category iterator_category;
- void constraints() {
- function_requires<
- TrivialIteratorPoliciesConcept<Policies, Adapted, Traits>
- >();
-
- p.increment(x);
- std::forward_iterator_tag t = iterator_category();
- ignore_unused_variable_warning(t);
- }
- Policies p;
- Adapted x;
- iterator_category category;
-};
-
-template <class Policies, class Adapted, class Traits>
-struct BidirectionalIteratorPoliciesConcept
-{
- typedef typename Traits::iterator_category iterator_category;
- void constraints() {
- function_requires<
- ForwardIteratorPoliciesConcept<Policies, Adapted, Traits>
- >();
-
- p.decrement(x);
- std::bidirectional_iterator_tag t = iterator_category();
- ignore_unused_variable_warning(t);
- }
- Policies p;
- Adapted x;
-};
-
-template <class Policies, class Adapted, class Traits>
-struct RandomAccessIteratorPoliciesConcept
-{
- typedef typename Traits::difference_type DifferenceType;
- typedef typename Traits::iterator_category iterator_category;
- void constraints() {
- function_requires<
- BidirectionalIteratorPoliciesConcept<Policies, Adapted, Traits>
- >();
-
- p.advance(x, n);
- std::random_access_iterator_tag t = iterator_category();
- const_constraints();
- ignore_unused_variable_warning(t);
- }
- void const_constraints() const {
- n = p.distance(x, x);
- }
- Policies p;
- Adapted x;
- mutable DifferenceType n;
- mutable bool b;
-};
-
-
-//============================================================================
-// Default policies for iterator adaptors. You can use this as a base
-// class if you want to customize particular policies.
-struct default_iterator_policies
-{
- // Some of the member functions were defined static, but Borland
- // got confused and thought they were non-const. Also, Sun C++
- // does not like static function templates.
- //
- // The reason some members were defined static is because there is
- // not state (data members) needed by those members of the
- // default_iterator_policies class. If your policies class member
- // functions need to access state stored in the policies object,
- // then the member functions should not be static (they can't be).
-
- template <class Base>
- void initialize(Base&)
- { }
-
- template <class IteratorAdaptor>
- typename IteratorAdaptor::reference dereference(const IteratorAdaptor& x) const
- { return *x.base(); }
-
- template <class IteratorAdaptor>
- void increment(IteratorAdaptor& x)
- { ++x.base(); }
-
- template <class IteratorAdaptor>
- void decrement(IteratorAdaptor& x)
- { --x.base(); }
-
- template <class IteratorAdaptor, class DifferenceType>
- void advance(IteratorAdaptor& x, DifferenceType n)
- { x.base() += n; }
-
- template <class IteratorAdaptor1, class IteratorAdaptor2>
- typename IteratorAdaptor1::difference_type
- distance(const IteratorAdaptor1& x, const IteratorAdaptor2& y) const
- { return y.base() - x.base(); }
-
- template <class IteratorAdaptor1, class IteratorAdaptor2>
- bool equal(const IteratorAdaptor1& x, const IteratorAdaptor2& y) const
- { return x.base() == y.base(); }
-};
-
-// putting the comparisons in a base class avoids the g++
-// ambiguous overload bug due to the relops operators
-
-#ifdef BOOST_RELOPS_AMBIGUITY_BUG
-template <class Derived, class Base>
-struct iterator_comparisons : Base { };
-
-template <class D1, class D2, class Base1, class Base2>
-inline bool operator==(const iterator_comparisons<D1,Base1>& xb,
- const iterator_comparisons<D2,Base2>& yb)
-{
- const D1& x = static_cast<const D1&>(xb);
- const D2& y = static_cast<const D2&>(yb);
- return x.policies().equal(x, y);
-}
-
-template <class D1, class D2, class Base1, class Base2>
-inline bool operator!=(const iterator_comparisons<D1,Base1>& xb,
- const iterator_comparisons<D2,Base2>& yb)
-{
- const D1& x = static_cast<const D1&>(xb);
- const D2& y = static_cast<const D2&>(yb);
- return !x.policies().equal(x, y);
-}
-
-template <class D1, class D2, class Base1, class Base2>
-inline bool operator<(const iterator_comparisons<D1,Base1>& xb,
- const iterator_comparisons<D2,Base2>& yb)
-{
- const D1& x = static_cast<const D1&>(xb);
- const D2& y = static_cast<const D2&>(yb);
- return x.policies().distance(y, x) < 0;
-}
-
-template <class D1, class D2, class Base1, class Base2>
-inline bool operator>(const iterator_comparisons<D1,Base1>& xb,
- const iterator_comparisons<D2,Base2>& yb)
-{
- const D1& x = static_cast<const D1&>(xb);
- const D2& y = static_cast<const D2&>(yb);
- return x.policies().distance(y, x) > 0;
-}
-
-template <class D1, class D2, class Base1, class Base2>
-inline bool operator>=(const iterator_comparisons<D1,Base1>& xb,
- const iterator_comparisons<D2,Base2>& yb)
-{
- const D1& x = static_cast<const D1&>(xb);
- const D2& y = static_cast<const D2&>(yb);
- return x.policies().distance(y, x) >= 0;
-}
-
-template <class D1, class D2, class Base1, class Base2>
-inline bool operator<=(const iterator_comparisons<D1,Base1>& xb,
- const iterator_comparisons<D2,Base2>& yb)
-{
- const D1& x = static_cast<const D1&>(xb);
- const D2& y = static_cast<const D2&>(yb);
- return x.policies().distance(y, x) <= 0;
-}
-#endif
-
-namespace detail {
-
- // operator->() needs special support for input iterators to strictly meet the
- // standard's requirements. If *i is not a reference type, we must still
- // produce a (constant) lvalue to which a pointer can be formed. We do that by
- // returning an instantiation of this special proxy class template.
-
- template <class T>
- struct operator_arrow_proxy
- {
- operator_arrow_proxy(const T& x) : m_value(x) {}
- const T* operator->() const { return &m_value; }
- // This function is needed for MWCW and BCC, which won't call operator->
- // again automatically per 13.3.1.2 para 8
- operator const T*() const { return &m_value; }
- T m_value;
- };
-
- template <class Iter>
- inline operator_arrow_proxy<typename Iter::value_type>
- operator_arrow(const Iter& i, std::input_iterator_tag) {
- typedef typename Iter::value_type value_t; // VC++ needs this typedef
- return operator_arrow_proxy<value_t>(*i);
- }
-
- template <class Iter>
- inline typename Iter::pointer
- operator_arrow(const Iter& i, std::forward_iterator_tag) {
- return &(*i);
- }
-
- template <class Value, class Reference, class Pointer>
- struct operator_arrow_result_generator
- {
- typedef operator_arrow_proxy<Value> proxy;
- // Borland chokes unless it's an actual enum (!)
- enum { use_proxy = !boost::is_reference<Reference>::value };
-
- typedef typename boost::detail::if_true<(use_proxy)>::template
- then<
- proxy,
- // else
- Pointer
- >::type type;
- };
-
-
-# if defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION) || defined(BOOST_NO_STD_ITERATOR_TRAITS)
-
- // Select default pointer and reference types for adapted non-pointer
- // iterators based on the iterator and the value_type. Poor man's partial
- // specialization is in use here.
- template <bool is_pointer>
- struct iterator_defaults_select
- {
- template <class Iterator,class Value>
- struct traits
- {
- // The assumption is that iterator_traits can deduce these types
- // properly as long as the iterator is not a pointer.
- typedef typename boost::detail::iterator_traits<Iterator>::pointer pointer;
- typedef typename boost::detail::iterator_traits<Iterator>::reference reference;
- };
- };
-
- // Select default pointer and reference types for adapted pointer iterators
- // given a (possibly-const) value_type.
- template <>
- struct iterator_defaults_select<true>
- {
- template <class Iterator,class Value>
- struct traits
- {
- typedef Value* pointer;
- typedef Value& reference;
- };
- };
-
- // Consolidate selection of the default pointer and reference type
- template <class Iterator,class Value>
- struct iterator_defaults
- {
- BOOST_STATIC_CONSTANT(bool, is_ptr = boost::is_pointer<Iterator>::value);
-
- typedef typename iterator_defaults_select<is_ptr>::template traits<Iterator,Value> traits;
- typedef typename traits::pointer pointer;
- typedef typename traits::reference reference;
- };
-# else
- template <class Iterator,class Value>
- struct iterator_defaults : iterator_traits<Iterator>
- {
- // Trying to factor the common is_same expression into an enum or a
- // static bool constant confused Borland.
- typedef typename if_true<(
- ::boost::is_same<Value,typename iterator_traits<Iterator>::value_type>::value
- )>::template then<
- typename iterator_traits<Iterator>::pointer,
- Value*
- >::type pointer;
-
- typedef typename if_true<(
- ::boost::is_same<Value,typename iterator_traits<Iterator>::value_type>::value
- )>::template then<
- typename iterator_traits<Iterator>::reference,
- Value&
- >::type reference;
-
- };
-# endif
-
- //===========================================================================
- // Specify the defaults for iterator_adaptor's template parameters
-
- struct default_argument { };
- // This class template is a workaround for MSVC.
- struct dummy_default_gen {
- template <class Base, class Traits>
- struct select { typedef default_argument type; };
- };
- // This class template is a workaround for MSVC.
- template <class Gen> struct default_generator {
- typedef dummy_default_gen type;
- };
-
- struct default_value_type {
- template <class Base, class Traits>
- struct select {
- typedef typename boost::detail::iterator_traits<Base>::value_type type;
- };
- };
- template <> struct default_generator<default_value_type>
- { typedef default_value_type type; }; // VC++ workaround
-
- struct default_difference_type {
- template <class Base, class Traits>
- struct select {
- typedef typename boost::detail::iterator_traits<Base>::difference_type type;
- };
- };
- template <> struct default_generator<default_difference_type>
- { typedef default_difference_type type; }; // VC++ workaround
-
- struct default_iterator_category {
- template <class Base, class Traits>
- struct select {
- typedef typename boost::detail::iterator_traits<Base>::iterator_category type;
- };
- };
- template <> struct default_generator<default_iterator_category>
- { typedef default_iterator_category type; }; // VC++ workaround
-
- struct default_pointer {
- template <class Base, class Traits>
- struct select {
- typedef typename Traits::value_type Value;
- typedef typename boost::detail::iterator_defaults<Base,Value>::pointer
- type;
- };
- };
- template <> struct default_generator<default_pointer>
- { typedef default_pointer type; }; // VC++ workaround
-
- struct default_reference {
- template <class Base, class Traits>
- struct select {
- typedef typename Traits::value_type Value;
- typedef typename boost::detail::iterator_defaults<Base,Value>::reference
- type;
- };
- };
- template <> struct default_generator<default_reference>
- { typedef default_reference type; }; // VC++ workaround
-
-} // namespace detail
-
-
- //===========================================================================
- // Support for named template parameters
-
-struct named_template_param_base { };
-
-namespace detail {
- struct value_type_tag { };
- struct reference_tag { };
- struct pointer_tag { };
- struct difference_type_tag { };
- struct iterator_category_tag { };
-
- // avoid using std::pair because A or B might be a reference type, and g++
- // complains about forming references to references inside std::pair
- template <class A, class B>
- struct cons_type {
- typedef A first_type;
- typedef B second_type;
- };
-
-} // namespace detail
-
-template <class Value> struct value_type_is : public named_template_param_base
-{
- typedef detail::cons_type<detail::value_type_tag, Value> type;
-};
-template <class Reference> struct reference_is : public named_template_param_base
-{
- typedef detail::cons_type<detail::reference_tag, Reference> type;
-};
-template <class Pointer> struct pointer_is : public named_template_param_base
-{
- typedef detail::cons_type<detail::pointer_tag, Pointer> type;
-};
-template <class Difference> struct difference_type_is
- : public named_template_param_base
-{
- typedef detail::cons_type<detail::difference_type_tag, Difference> type;
-};
-template <class IteratorCategory> struct iterator_category_is
- : public named_template_param_base
-{
- typedef detail::cons_type<detail::iterator_category_tag, IteratorCategory> type;
-};
-
-namespace detail {
-
- struct end_of_list { };
-
- // Given an associative list, find the value with the matching key.
- // An associative list is a list of key-value pairs. The list is
- // built out of cons_type's and is terminated by end_of_list.
-
-# if defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION) || defined(__BORLANDC__)
- template <class AssocList, class Key>
- struct find_param;
-
- struct find_param_continue {
- template <class AssocList, class Key2> struct select {
- typedef typename AssocList::first_type Head;
- typedef typename Head::first_type Key1;
- typedef typename Head::second_type Value;
- typedef typename if_true<(is_same<Key1, Key2>::value)>::template
- then<Value,
- typename find_param<typename AssocList::second_type, Key2>::type
- >::type type;
- };
- };
- struct find_param_end {
- template <class AssocList, class Key>
- struct select { typedef detail::default_argument type; };
- };
- template <class AssocList> struct find_param_helper1
- { typedef find_param_continue type; };
- template <> struct find_param_helper1<end_of_list>
- { typedef find_param_end type; };
-
- template <class AssocList, class Key>
- struct find_param {
- typedef typename find_param_helper1<AssocList>::type select1;
- typedef typename select1::template select<AssocList, Key>::type type;
- };
-# else
- template <class AssocList, class Key> struct find_param;
-
- template <class Key>
- struct find_param<end_of_list, Key> { typedef default_argument type; };
-
- // Found a matching Key, return the associated Value
- template <class Key, class Value, class Rest>
- struct find_param<detail::cons_type< detail::cons_type<Key, Value>, Rest>, Key> {
- typedef Value type;
- };
-
- // Non-matching keys, continue the search
- template <class Key1, class Value, class Rest, class Key2>
- struct find_param<detail::cons_type< detail::cons_type<Key1, Value>, Rest>, Key2> {
- typedef typename find_param<Rest, Key2>::type type;
- };
-# endif
-
- struct make_named_arg {
- template <class Key, class Value>
- struct select { typedef typename Value::type type; };
- };
- struct make_key_value {
- template <class Key, class Value>
- struct select { typedef detail::cons_type<Key, Value> type; };
- };
-
- template <class Value>
- struct is_named_parameter
- {
- enum { value = is_convertible< typename add_reference< Value >::type, add_reference< named_template_param_base >::type >::value };
- };
-
-# if defined(__MWERKS__) && __MWERKS__ <= 0x2406 // workaround for broken is_convertible implementation
- template <class T> struct is_named_parameter<value_type_is<T> > { enum { value = true }; };
- template <class T> struct is_named_parameter<reference_is<T> > { enum { value = true }; };
- template <class T> struct is_named_parameter<pointer_is<T> > { enum { value = true }; };
- template <class T> struct is_named_parameter<difference_type_is<T> > { enum { value = true }; };
- template <class T> struct is_named_parameter<iterator_category_is<T> > { enum { value = true }; };
-# endif
-
- template <class Key, class Value>
- struct make_arg {
-# ifdef __BORLANDC__
- // Borland C++ doesn't like the extra indirection of is_named_parameter
- typedef typename
- if_true<(is_convertible<Value,named_template_param_base>::value)>::
- template then<make_named_arg, make_key_value>::type Make;
-# else
- enum { is_named = is_named_parameter<Value>::value };
- typedef typename if_true<(is_named)>::template
- then<make_named_arg, make_key_value>::type Make;
-# endif
- typedef typename Make::template select<Key, Value>::type type;
- };
-
- // Mechanism for resolving the default argument for a template parameter.
-
- template <class T> struct is_default { typedef type_traits::no_type type; };
- template <> struct is_default<default_argument>
- { typedef type_traits::yes_type type; };
-
- struct choose_default {
- template <class Arg, class DefaultGen, class Base, class Traits>
- struct select {
- typedef typename default_generator<DefaultGen>::type Gen;
- typedef typename Gen::template select<Base,Traits>::type type;
- };
- };
- struct choose_arg {
- template <class Arg, class DefaultGen, class Base, class Traits>
- struct select {
- typedef Arg type;
- };
- };
-
- template <class UseDefault>
- struct choose_arg_or_default { typedef choose_arg type; };
- template <> struct choose_arg_or_default<type_traits::yes_type> {
- typedef choose_default type;
- };
-
- template <class Arg, class DefaultGen, class Base, class Traits>
- class resolve_default {
- typedef typename choose_arg_or_default<typename is_default<Arg>::type>::type
- Selector;
- public:
- typedef typename Selector
- ::template select<Arg, DefaultGen, Base, Traits>::type type;
- };
-
- template <class Base, class Value, class Reference, class Pointer,
- class Category, class Distance>
- class iterator_adaptor_traits_gen
- {
- // Form an associative list out of the template parameters
- // If the argument is a normal parameter (not named) then make_arg
- // creates a key-value pair. If the argument is a named parameter,
- // then make_arg extracts the key-value pair defined inside the
- // named parameter.
- typedef detail::cons_type< typename make_arg<value_type_tag, Value>::type,
- detail::cons_type<typename make_arg<reference_tag, Reference>::type,
- detail::cons_type<typename make_arg<pointer_tag, Pointer>::type,
- detail::cons_type<typename make_arg<iterator_category_tag, Category>::type,
- detail::cons_type<typename make_arg<difference_type_tag, Distance>::type,
- end_of_list> > > > > ArgList;
-
- // Search the list for particular parameters
- typedef typename find_param<ArgList, value_type_tag>::type Val;
- typedef typename find_param<ArgList, difference_type_tag>::type Diff;
- typedef typename find_param<ArgList, iterator_category_tag>::type Cat;
- typedef typename find_param<ArgList, pointer_tag>::type Ptr;
- typedef typename find_param<ArgList, reference_tag>::type Ref;
-
- typedef boost::iterator<Category, Value, Distance, Pointer, Reference>
- Traits0;
-
- // Compute the defaults if necessary
- typedef typename resolve_default<Val, default_value_type, Base, Traits0>::type
- value_type;
- // if getting default value type from iterator_traits, then it won't be const
- typedef typename resolve_default<Diff, default_difference_type, Base,
- Traits0>::type difference_type;
- typedef typename resolve_default<Cat, default_iterator_category, Base,
- Traits0>::type iterator_category;
-
- typedef boost::iterator<iterator_category, value_type, difference_type,
- Pointer, Reference> Traits1;
-
- // Compute the defaults for pointer and reference. This is done as a
- // separate step because the defaults for pointer and reference depend
- // on value_type.
- typedef typename resolve_default<Ptr, default_pointer, Base, Traits1>::type
- pointer;
- typedef typename resolve_default<Ref, default_reference, Base, Traits1>::type
- reference;
-
- public:
- typedef boost::iterator<iterator_category,
- typename remove_const<value_type>::type,
- difference_type, pointer, reference> type;
- };
-
- // This is really a partial concept check for iterators. Should it
- // be moved or done differently?
- template <class Category, class Value, class Difference, class Pointer, class Reference>
- struct validator
- {
- BOOST_STATIC_CONSTANT(
- bool, is_input_or_output_iter
- = (boost::is_convertible<Category*,std::input_iterator_tag*>::value
- | boost::is_convertible<Category*,std::output_iterator_tag*>::value));
-
- // Iterators should satisfy one of the known categories
- BOOST_STATIC_ASSERT(is_input_or_output_iter);
-
- // Iterators >= ForwardIterator must produce real references
- // as required by the C++ standard requirements in Table 74.
- BOOST_STATIC_CONSTANT(
- bool, forward_iter_with_real_reference
- = ((!boost::is_convertible<Category*,std::forward_iterator_tag*>::value)
- | boost::is_same<Reference,Value&>::value
- | boost::is_same<Reference,typename add_const<Value>::type&>::value));
-
- BOOST_STATIC_ASSERT(forward_iter_with_real_reference);
- };
-} // namespace detail
-
-
-
-// This macro definition is only temporary in this file
-# if !defined(BOOST_MSVC) || BOOST_MSVC > 1300
-# define BOOST_ARG_DEPENDENT_TYPENAME typename
-# else
-# define BOOST_ARG_DEPENDENT_TYPENAME
-# endif
-
-//============================================================================
-//iterator_adaptor - Adapts a generic piece of data as an iterator. Adaptation
-// is especially easy if the data being adapted is itself an iterator
-//
-// Base - the base (usually iterator) type being wrapped.
-//
-// Policies - a set of policies determining how the resulting iterator
-// works.
-//
-// Value - if supplied, the value_type of the resulting iterator, unless
-// const. If const, a conforming compiler strips constness for the
-// value_type. If not supplied, iterator_traits<Base>::value_type is used
-//
-// Reference - the reference type of the resulting iterator, and in
-// particular, the result type of operator*(). If not supplied but
-// Value is supplied, Value& is used. Otherwise
-// iterator_traits<Base>::reference is used.
-//
-// Pointer - the pointer type of the resulting iterator, and in
-// particular, the result type of operator->(). If not
-// supplied but Value is supplied, Value* is used. Otherwise
-// iterator_traits<Base>::pointer is used.
-//
-// Category - the iterator_category of the resulting iterator. If not
-// supplied, iterator_traits<Base>::iterator_category is used.
-//
-// Distance - the difference_type of the resulting iterator. If not
-// supplied, iterator_traits<Base>::difference_type is used.
-template <class Base, class Policies,
- class Value = ::boost::detail::default_argument,
- class Reference = ::boost::detail::default_argument,
- class Pointer = ::boost::detail::default_argument,
- class Category = ::boost::detail::default_argument,
- class Distance = ::boost::detail::default_argument
- >
-struct iterator_adaptor :
-#ifdef BOOST_RELOPS_AMBIGUITY_BUG
- iterator_comparisons<
- iterator_adaptor<Base,Policies,Value,Reference,Pointer,Category,Distance>,
- typename detail::iterator_adaptor_traits_gen<Base,Value,Reference,Pointer,Category, Distance>::type
- >
-#else
- detail::iterator_adaptor_traits_gen<Base,Value,Reference,Pointer,Category,Distance>::type
-#endif
-{
- typedef iterator_adaptor<Base,Policies,Value,Reference,Pointer,Category,Distance> self;
- public:
- typedef detail::iterator_adaptor_traits_gen<Base,Value,Reference,Pointer,Category,Distance> TraitsGen;
- typedef typename TraitsGen::type Traits;
-
- typedef typename Traits::difference_type difference_type;
- typedef typename Traits::value_type value_type;
- typedef typename Traits::pointer pointer;
- typedef typename Traits::reference reference;
- typedef typename Traits::iterator_category iterator_category;
-
- typedef Base base_type;
- typedef Policies policies_type;
-
- private:
- typedef detail::validator<
- iterator_category,value_type,difference_type,pointer,reference
- > concept_check;
-
- public:
- iterator_adaptor()
- {
- }
-
- explicit
- iterator_adaptor(const Base& it, const Policies& p = Policies())
- : m_iter_p(it, p) {
- policies().initialize(base());
- }
-
- template <class Iter2, class Value2, class Pointer2, class Reference2>
- iterator_adaptor (
- const iterator_adaptor<Iter2,Policies,Value2,Reference2,Pointer2,Category,Distance>& src)
- : m_iter_p(src.base(), src.policies())
- {
- policies().initialize(base());
- }
-
-#if defined(BOOST_MSVC) && BOOST_MSVC <= 1300 || defined(__BORLANDC__)
- // This is required to prevent a bug in how VC++ generates
- // the assignment operator for compressed_pair
- iterator_adaptor& operator= (const iterator_adaptor& x) {
- m_iter_p = x.m_iter_p;
- return *this;
- }
-#endif
- reference operator*() const {
- return policies().dereference(*this);
- }
-
-#ifdef BOOST_MSVC
-# pragma warning(push)
-# pragma warning( disable : 4284 )
-#endif
-
- typename boost::detail::operator_arrow_result_generator<value_type,reference,pointer>::type
- operator->() const
- { return detail::operator_arrow(*this, iterator_category()); }
-
-#ifdef BOOST_MSVC
-# pragma warning(pop)
-#endif
-
- value_type operator[](difference_type n) const
- { return *(*this + n); }
-
- self& operator++() {
-#if !defined(__MWERKS__) || __MWERKS__ >= 0x2405
- policies().increment(*this);
-#else
- // Odd bug, MWERKS couldn't deduce the type for the member template
- // Workaround by explicitly specifying the type.
- policies().increment<self>(*this);
-#endif
- return *this;
- }
-
- self operator++(int) { self tmp(*this); ++*this; return tmp; }
-
- self& operator--() {
-#if !defined(__MWERKS__) || __MWERKS__ >= 0x2405
- policies().decrement(*this);
-#else
- policies().decrement<self>(*this);
-#endif
- return *this;
- }
-
- self operator--(int) { self tmp(*this); --*this; return tmp; }
-
- self& operator+=(difference_type n) {
- policies().advance(*this, n);
- return *this;
- }
-
- self& operator-=(difference_type n) {
- policies().advance(*this, -n);
- return *this;
- }
-
- base_type const& base() const { return m_iter_p.first(); }
-
- // Moved from global scope to avoid ambiguity with the operator-() which
- // subtracts iterators from one another.
- self operator-(difference_type x) const
- { self result(*this); return result -= x; }
-private:
- compressed_pair<Base,Policies> m_iter_p;
-
-public: // implementation details (too many compilers have trouble when these are private).
- base_type& base() { return m_iter_p.first(); }
- Policies& policies() { return m_iter_p.second(); }
- const Policies& policies() const { return m_iter_p.second(); }
-};
-
-template <class Base, class Policies, class Value, class Reference, class Pointer,
- class Category, class Distance1, class Distance2>
-iterator_adaptor<Base,Policies,Value,Reference,Pointer,Category,Distance1>
-operator+(
- iterator_adaptor<Base,Policies,Value,Reference,Pointer,Category,Distance1> p,
- Distance2 x)
-{
- return p += x;
-}
-
-template <class Base, class Policies, class Value, class Reference, class Pointer,
- class Category, class Distance1, class Distance2>
-iterator_adaptor<Base,Policies,Value,Reference,Pointer,Category,Distance1>
-operator+(
- Distance2 x,
- iterator_adaptor<Base,Policies,Value,Reference,Pointer,Category,Distance1> p)
-{
- return p += x;
-}
-
-template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
- class Reference1, class Reference2, class Pointer1, class Pointer2, class Category,
- class Distance>
-typename iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>::difference_type
-operator-(
- const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
- const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
-{
- typedef typename iterator_adaptor<Iterator1,Policies,Value1,Reference1,
- Pointer1,Category,Distance>::difference_type difference_type;
- return x.policies().distance(y, x);
-}
-
-#ifndef BOOST_RELOPS_AMBIGUITY_BUG
-template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
- class Reference1, class Reference2, class Pointer1, class Pointer2,
- class Category, class Distance>
-inline bool
-operator==(
- const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
- const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
-{
- return x.policies().equal(x, y);
-}
-
-template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
- class Reference1, class Reference2, class Pointer1, class Pointer2,
- class Category, class Distance>
-inline bool
-operator<(
- const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
- const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
-{
- return x.policies().distance(y, x) < 0;
-}
-
-template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
- class Reference1, class Reference2, class Pointer1, class Pointer2,
- class Category, class Distance>
-inline bool
-operator>(
- const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
- const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
-{
- return x.policies().distance(y, x) > 0;
-}
-
-template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
- class Reference1, class Reference2, class Pointer1, class Pointer2,
- class Category, class Distance>
-inline bool
-operator>=(
- const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
- const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
-{
- return x.policies().distance(y, x) >= 0;
-}
-
-template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
- class Reference1, class Reference2, class Pointer1, class Pointer2,
- class Category, class Distance>
-inline bool
-operator<=(
- const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
- const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
-{
- return x.policies().distance(y, x) <= 0;
-}
-
-template <class Iterator1, class Iterator2, class Policies, class Value1, class Value2,
- class Reference1, class Reference2, class Pointer1, class Pointer2,
- class Category, class Distance>
-inline bool
-operator!=(
- const iterator_adaptor<Iterator1,Policies,Value1,Reference1,Pointer1,Category,Distance>& x,
- const iterator_adaptor<Iterator2,Policies,Value2,Reference2,Pointer2,Category,Distance>& y)
-{
- return !x.policies().equal(x, y);
-}
-#endif
-
-//=============================================================================
-// Transform Iterator Adaptor
-//
-// Upon deference, apply some unary function object and return the
-// result by value.
-
-template <class AdaptableUnaryFunction>
-struct transform_iterator_policies : public default_iterator_policies
-{
- transform_iterator_policies() { }
- transform_iterator_policies(const AdaptableUnaryFunction& f) : m_f(f) { }
-
- template <class IteratorAdaptor>
- typename IteratorAdaptor::reference
- dereference(const IteratorAdaptor& iter) const
- { return m_f(*iter.base()); }
-
- AdaptableUnaryFunction m_f;
-};
-
-template <class AdaptableUnaryFunction, class Iterator>
-class transform_iterator_generator
-{
- typedef typename AdaptableUnaryFunction::result_type value_type;
-public:
- typedef iterator_adaptor<Iterator,
- transform_iterator_policies<AdaptableUnaryFunction>,
- value_type, value_type, value_type*, std::input_iterator_tag>
- type;
-};
-
-template <class AdaptableUnaryFunction, class Iterator>
-inline typename transform_iterator_generator<AdaptableUnaryFunction,Iterator>::type
-make_transform_iterator(
- Iterator base,
- const AdaptableUnaryFunction& f = AdaptableUnaryFunction())
-{
- typedef typename transform_iterator_generator<AdaptableUnaryFunction,Iterator>::type result_t;
- return result_t(base, f);
-}
-
-//=============================================================================
-// Indirect Iterators Adaptor
-
-// Given a pointer to pointers (or iterator to iterators),
-// apply a double dereference inside operator*().
-//
-// We use the term "outer" to refer to the first level iterator type
-// and "inner" to refer to the second level iterator type. For
-// example, given T**, T* is the inner iterator type and T** is the
-// outer iterator type. Also, const T* would be the const inner
-// iterator.
-
-// We tried to implement this with transform_iterator, but that required
-// using boost::remove_ref, which is not compiler portable.
-
-struct indirect_iterator_policies : public default_iterator_policies
-{
- template <class IteratorAdaptor>
- typename IteratorAdaptor::reference dereference(const IteratorAdaptor& x) const
- { return **x.base(); }
-};
-
-namespace detail {
-# if !defined(BOOST_MSVC) || BOOST_MSVC > 1300 // strangely instantiated even when unused! Maybe try a recursive template someday ;-)
- template <class T>
- struct traits_of_value_type {
- typedef typename boost::detail::iterator_traits<T>::value_type outer_value;
- typedef typename boost::detail::iterator_traits<outer_value>::value_type value_type;
- typedef typename boost::detail::iterator_traits<outer_value>::reference reference;
- typedef typename boost::detail::iterator_traits<outer_value>::pointer pointer;
- };
-# endif
-}
-
-template <class OuterIterator, // Mutable or Immutable, does not matter
- class Value
-#if !defined(BOOST_MSVC) || BOOST_MSVC > 1300
- = BOOST_ARG_DEPENDENT_TYPENAME detail::traits_of_value_type<
- OuterIterator>::value_type
-#endif
- , class Reference
-#if !defined(BOOST_MSVC) || BOOST_MSVC > 1300
- = BOOST_ARG_DEPENDENT_TYPENAME detail::traits_of_value_type<
- OuterIterator>::reference
-#else
- = Value &
-#endif
- , class Category = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<
- OuterIterator>::iterator_category
- , class Pointer
-#if !defined(BOOST_MSVC) || BOOST_MSVC > 1300
- = BOOST_ARG_DEPENDENT_TYPENAME detail::traits_of_value_type<
- OuterIterator>::pointer
-#else
- = Value*
-#endif
- >
-struct indirect_iterator_generator
-{
- typedef iterator_adaptor<OuterIterator,
- indirect_iterator_policies,Value,Reference,Pointer,Category> type;
-};
-
-template <class OuterIterator, // Mutable or Immutable, does not matter
- class Value
-#if !defined(BOOST_MSVC) || BOOST_MSVC > 1300
- = BOOST_ARG_DEPENDENT_TYPENAME detail::traits_of_value_type<
- OuterIterator>::value_type
-#endif
- , class Reference
-#if !defined(BOOST_MSVC) || BOOST_MSVC > 1300
- = BOOST_ARG_DEPENDENT_TYPENAME detail::traits_of_value_type<
- OuterIterator>::reference
-#else
- = Value &
-#endif
- , class ConstReference = Value const&
- , class Category = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<
- OuterIterator>::iterator_category
- , class Pointer
-#if !defined(BOOST_MSVC) || BOOST_MSVC > 1300
- = BOOST_ARG_DEPENDENT_TYPENAME detail::traits_of_value_type<
- OuterIterator>::pointer
-#else
- = Value*
-#endif
- , class ConstPointer = Value const*
- >
-struct indirect_iterator_pair_generator
-{
- typedef typename indirect_iterator_generator<OuterIterator,
- Value, Reference,Category,Pointer>::type iterator;
- typedef typename indirect_iterator_generator<OuterIterator,
- Value, ConstReference,Category,ConstPointer>::type const_iterator;
-};
-
-#if !defined(BOOST_MSVC) || BOOST_MSVC > 1300
-template <class OuterIterator>
-inline typename indirect_iterator_generator<OuterIterator>::type
-make_indirect_iterator(OuterIterator base)
-{
- typedef typename indirect_iterator_generator
- <OuterIterator>::type result_t;
- return result_t(base);
-}
-#endif
-
-//=============================================================================
-// Reverse Iterators Adaptor
-
-struct reverse_iterator_policies : public default_iterator_policies
-{
- template <class IteratorAdaptor>
- typename IteratorAdaptor::reference dereference(const IteratorAdaptor& x) const
- { return *boost::prior(x.base()); }
-
- template <class BidirectionalIterator>
- void increment(BidirectionalIterator& x) const
- { --x.base(); }
-
- template <class BidirectionalIterator>
- void decrement(BidirectionalIterator& x) const
- { ++x.base(); }
-
- template <class BidirectionalIterator, class DifferenceType>
- void advance(BidirectionalIterator& x, DifferenceType n) const
- { x.base() -= n; }
-
- template <class Iterator1, class Iterator2>
- typename Iterator1::difference_type distance(
- const Iterator1& x, const Iterator2& y) const
- { return x.base() - y.base(); }
-
- template <class Iterator1, class Iterator2>
- bool equal(const Iterator1& x, const Iterator2& y) const
- { return x.base() == y.base(); }
-};
-
-template <class BidirectionalIterator,
- class Value = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<BidirectionalIterator>::value_type,
- class Reference = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_defaults<BidirectionalIterator,Value>::reference,
- class Pointer = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_defaults<BidirectionalIterator,Value>::pointer,
- class Category = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<BidirectionalIterator>::iterator_category,
- class Distance = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<BidirectionalIterator>::difference_type
- >
-struct reverse_iterator_generator
-{
- typedef iterator_adaptor<BidirectionalIterator,reverse_iterator_policies,
- Value,Reference,Pointer,Category,Distance> type;
-};
-
-template <class BidirectionalIterator>
-inline typename reverse_iterator_generator<BidirectionalIterator>::type
-make_reverse_iterator(BidirectionalIterator base)
-{
- typedef typename reverse_iterator_generator<BidirectionalIterator>::type result_t;
- return result_t(base);
-}
-
-//=============================================================================
-// Projection Iterators Adaptor
-
-template <class AdaptableUnaryFunction>
-struct projection_iterator_policies : public default_iterator_policies
-{
- projection_iterator_policies() { }
- projection_iterator_policies(const AdaptableUnaryFunction& f) : m_f(f) { }
-
- template <class IteratorAdaptor>
- typename IteratorAdaptor::reference dereference(IteratorAdaptor const& iter) const {
- return m_f(*iter.base());
- }
-
- AdaptableUnaryFunction m_f;
-};
-
-template <class AdaptableUnaryFunction, class Iterator>
-class projection_iterator_generator {
- typedef typename AdaptableUnaryFunction::result_type value_type;
- typedef projection_iterator_policies<AdaptableUnaryFunction> policies;
-public:
- typedef iterator_adaptor<Iterator,policies,value_type,value_type&,value_type*> type;
-};
-
-template <class AdaptableUnaryFunction, class Iterator>
-class const_projection_iterator_generator {
- typedef typename AdaptableUnaryFunction::result_type value_type;
- typedef projection_iterator_policies<AdaptableUnaryFunction> policies;
-public:
- typedef iterator_adaptor<Iterator,policies,value_type,const value_type&,const value_type*> type;
-};
-
-template <class AdaptableUnaryFunction, class Iterator, class ConstIterator>
-struct projection_iterator_pair_generator {
- typedef typename projection_iterator_generator<AdaptableUnaryFunction, Iterator>::type iterator;
- typedef typename const_projection_iterator_generator<AdaptableUnaryFunction, ConstIterator>::type const_iterator;
-};
-
-
-template <class AdaptableUnaryFunction, class Iterator>
-inline typename projection_iterator_generator<AdaptableUnaryFunction, Iterator>::type
-make_projection_iterator(
- Iterator iter,
- const AdaptableUnaryFunction& f = AdaptableUnaryFunction())
-{
- typedef typename projection_iterator_generator<AdaptableUnaryFunction, Iterator>::type result_t;
- return result_t(iter, f);
-}
-
-template <class AdaptableUnaryFunction, class Iterator>
-inline typename const_projection_iterator_generator<AdaptableUnaryFunction, Iterator>::type
-make_const_projection_iterator(
- Iterator iter,
- const AdaptableUnaryFunction& f = AdaptableUnaryFunction())
-{
- typedef typename const_projection_iterator_generator<AdaptableUnaryFunction, Iterator>::type result_t;
- return result_t(iter, f);
-}
-
-//=============================================================================
-// Filter Iterator Adaptor
-
-template <class Predicate, class Iterator>
-class filter_iterator_policies
-{
-public:
- filter_iterator_policies() { }
-
- filter_iterator_policies(const Predicate& p, const Iterator& end)
- : m_predicate(p), m_end(end) { }
-
- void initialize(Iterator& x) {
- satisfy_predicate(x);
- }
-
- // The Iter template argument is neccessary for compatibility with a MWCW
- // bug workaround
- template <class IteratorAdaptor>
- void increment(IteratorAdaptor& x) {
- ++x.base();
- satisfy_predicate(x.base());
- }
-
- template <class IteratorAdaptor>
- typename IteratorAdaptor::reference dereference(const IteratorAdaptor& x) const
- { return *x.base(); }
-
- template <class IteratorAdaptor1, class IteratorAdaptor2>
- bool equal(const IteratorAdaptor1& x, const IteratorAdaptor2& y) const
- { return x.base() == y.base(); }
-
- private:
- void satisfy_predicate(Iterator& iter);
- Predicate m_predicate;
- Iterator m_end;
-};
-
-template <class Predicate, class Iterator>
-void filter_iterator_policies<Predicate,Iterator>::satisfy_predicate(
- Iterator& iter)
-{
- while (m_end != iter && !m_predicate(*iter))
- ++iter;
-}
-
-
-
-namespace detail {
- // A type generator returning Base if T is derived from Base, and T otherwise.
- template <class Base, class T>
- struct reduce_to_base_class
- {
- typedef typename if_true<(
- ::boost::is_convertible<T*,Base*>::value
- )>::template then<Base,T>::type type;
- };
-
- // "Steps down" the category of iterators below bidirectional so the category
- // can be used with filter iterators.
- template <class Iterator>
- struct non_bidirectional_category
- {
-# if !defined(__MWERKS__) || __MWERKS__ > 0x2406
- typedef typename reduce_to_base_class<
- std::forward_iterator_tag,
- typename iterator_traits<Iterator>::iterator_category
- >::type type;
- private:
- // For some reason, putting this assertion in filter_iterator_generator fails inexplicably under MSVC
- BOOST_STATIC_CONSTANT(
- bool, is_bidirectional
- = (!boost::is_convertible<type*, std::bidirectional_iterator_tag*>::value));
- BOOST_STATIC_ASSERT(is_bidirectional);
-# else
- // is_convertible doesn't work with MWERKS
- typedef typename iterator_traits<Iterator>::iterator_category input_category;
- public:
- typedef typename if_true<(
- boost::is_same<input_category,std::random_access_iterator_tag>::value
- || boost::is_same<input_category,std::bidirectional_iterator_tag>::value
- )>::template then<
- std::forward_iterator_tag,
- input_category
- >::type type;
-# endif
- };
-}
-
-template <class Predicate, class Iterator,
- class Value = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<Iterator>::value_type,
- class Reference = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_defaults<Iterator,Value>::reference,
- class Pointer = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_defaults<Iterator,Value>::pointer,
- class Category = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::non_bidirectional_category<Iterator>::type,
- class Distance = BOOST_ARG_DEPENDENT_TYPENAME boost::detail::iterator_traits<Iterator>::difference_type
- >
-class filter_iterator_generator {
- BOOST_STATIC_CONSTANT(bool, is_bidirectional
- = (boost::is_convertible<Category*, std::bidirectional_iterator_tag*>::value));
-#if !defined(BOOST_MSVC) || BOOST_MSVC > 1300 // I don't have any idea why this occurs, but it doesn't seem to hurt too badly.
- BOOST_STATIC_ASSERT(!is_bidirectional);
-#endif
- typedef filter_iterator_policies<Predicate,Iterator> policies_type;
- public:
- typedef iterator_adaptor<Iterator,policies_type,
- Value,Reference,Pointer,Category,Distance> type;
-};
-
-// This keeps MSVC happy; it doesn't like to deduce default template arguments
-// for template function return types
-namespace detail {
- template <class Predicate, class Iterator>
- struct filter_generator {
- typedef typename boost::filter_iterator_generator<Predicate,Iterator>::type type;
- };
-}
-
-template <class Predicate, class Iterator>
-inline typename detail::filter_generator<Predicate, Iterator>::type
-make_filter_iterator(Iterator first, Iterator last, const Predicate& p = Predicate())
-{
- typedef filter_iterator_generator<Predicate, Iterator> Gen;
- typedef filter_iterator_policies<Predicate,Iterator> policies_t;
- typedef typename Gen::type result_t;
- return result_t(first, policies_t(p, last));
-}
-
-} // namespace boost
-# undef BOOST_ARG_DEPENDENT_TYPENAME
-
-
-#endif
+// See www.boost.org/libs/iterator for documentation.
+#ifndef ITERATOR_ADAPTORS_DWA2004725_HPP
+# define ITERATOR_ADAPTORS_DWA2004725_HPP
+#define BOOST_ITERATOR_ADAPTORS_VERSION 0x0200
+#include <boost/iterator/iterator_adaptor.hpp>
+#endif // ITERATOR_ADAPTORS_DWA2004725_HPP